JPH08265350A - Adapter device of simultaneous multiaddress type local area network - Google Patents

Abstract

PURPOSE: To cope with the temporary fault of a transmission line and to quickly perform the restoration by selecting the data of the shortest data length in stayed frames and transmitting the data when the number of times of retransmission of the sane data reaches a prescribed number of times. CONSTITUTION: When the data signal transmitted from a transmission part 21 collides with the data signals outputted from other workstations 30 and 40 in a transmission line 50, a collision detection part 22 detects the generation of this collision and reports the detection to a retransmission part 23. The retransmission part 23 receives this notification, repeats the retransmission of the frame of this signal and repeats the retransmission till the number of times of the retransmission reaches threshold. When a frame selection part 28 receives the notification that the number of times of the retransmission of the same data frame reaches threshold from the retransmission part 23, the part 28 selects the data frame 26 of the shortest data length in the stayed frames which are stored in a transmission frame storage part 25 and transmits the data frame to the transmission part 21. The selected data frame is transmitted from the transmission part 21 to a transfer destination via the transmission line 50.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an adapter device for connecting an information processing device such as a personal computer or a workstation to a local area network, and more particularly to a simultaneous data communication among a plurality of stations on the same transmission line. The present invention relates to an adapter device for a report type local area network.

[0002]

2. Description of the Related Art Conventionally, the most common broadcast type local area network (hereinafter, abbreviated as LAN) of this kind is the IEEE802.3 standard CSMA / CD.
(Carrier Sensing Multiple
Access / Collision Detecti
on) type local area network. IE
The EE802.3 standard does not take any measures against a decrease in throughput due to an overload of a transmission line or the like. Therefore, when constructing a network, it is common to estimate how often data transmission will occur and construct a transmission path so as not to cause an overload. However, since the communication frequency itself is not always constant, a signal may frequently collide on the transmission path due to a temporary overload phenomenon, and the throughput may be reduced.

Originally, in the CSMA / CD system LAN, the problem that the load on the transmission line becomes high and the throughput decreases is as follows.
This is due to the network configuration. Therefore,
With a LAN that can be attached to a network at a relatively low cost,
The most effective method is to take appropriate measures such as reviewing the network configuration and installing multiple transmission lines. However, it is difficult to review the network configuration and deal with the decrease in throughput due to the temporary overload phenomenon as described above.

Generally, in data communication, a temporary transmission failure may occur due to the influence of noise or the like. Among such temporary transmission defects, there are some which are detected by the transmitting station due to a voltage change on the transmission line, such as late collision.

In response to a transmission line failure such as a decrease in throughput or a temporary transmission failure due to such a temporary overload phenomenon, conventionally, in an adapter device that connects an information processing device and a LAN, a frame that transmission fails It was dealt with by resending.

Further, conventionally, there has been a technique of responding by switching the signal transmission system according to the overload of the transmission line. Japanese Patent Laid-Open No. 60-1893 discloses a conventional technique of this type.
There is a technique described in Japanese Patent Publication No. 42-42. This publication is provided with two types of communication control means, a simultaneous broadcast type CSMA / CD method and a distributed control type token passing method, and a switching means for switching the communication means in the previous period, so that the transmission line is overloaded. A technique for switching the communication means in accordance therewith is disclosed.

Further, conventionally, when a signal collision occurs,
There is a technique in which an information processing apparatus that is not involved in a collision stops transmission until the information processing apparatus involved in the collision has successfully retransmitted. As a technique of this kind, Japanese Patent Laid-Open No. 3-11705
There is a technique described in Japanese Patent No. 2 publication. In the same publication, when signals transmitted from a plurality of information processing devices collide, a retransmission deadline that suspends the transmission right of an information processing device that is not involved in the collision until the successful transmission of another information processing device is completed. Has been disclosed and a technique for equivalently adjusting the retransmission thought rate is disclosed.

[0008]

As described above, the adapter device for connecting the information processing device and the LAN needs a temporary high load countermeasure and a temporary transmission failure countermeasure at a relatively low cost. It is to carry out. However, in the above-described conventional technique, the transmitting station retransmits a frame that has failed to be transmitted as it is, so that even a frame data having a long data length may be transmitted. In such a case, there is a drawback that the recovery from the overloaded state of the transmission line may be delayed.

Further, if a long frame is transmitted as it is in the state of a transmission line in which a temporary transmission failure has occurred, there is a drawback that the transmission fails or the probability of occurrence of garbled frame data increases.

Further, the technique of responding by switching the signal transmission method depending on the overload of the transmission line has a drawback that it is too large as a countermeasure against a temporary failure and is not economical.

In addition, when a signal collision occurs, an information processing apparatus that is not involved in the collision stops the transmission until the information processing apparatus involved in the collision is successfully retransmitted. Considering the common sense of data communication that the station bears, there is a drawback that it is not economical because it is necessary to newly provide a means for monitoring the transmission success of an unrelated station.

The present invention eliminates the above-mentioned conventional drawbacks, recovers quickly in response to a temporary failure of a transmission path, and can reduce the probability of retransmission failure or garbled frame data at a low cost. An object is to provide a LAN adapter device.

[0013]

In order to achieve the above object, the present invention provides a broadcast local area for performing data communication by connecting an information processing device and a transmission path of a broadcast local area network. In a network adapter device, transmitting means for transmitting a data frame to the transmission path, transmission frame storing means for storing one or more data frames to be transmitted by the transmission means, and a plurality of information processing devices on the transmission path Collision detecting means for detecting the collision of the data frame caused by the data transmission at the same time, and the transmitting means to transmit the same data frame signal when the collision detecting means detects the collision of the data frame, Retransmitting means for determining whether the number of retransmissions of the same data frame has reached a predetermined number of times, Retransmission counting means for controlling the number of retransmissions of the same data frame under the control of the means, and storing in the transmission frame storage means when the retransmission means determines that the number of retransmissions of the same data frame has reached a predetermined number. A frame selecting means for selecting the data frame having the shortest data length from the selected data frames and sending it to the transmitting means.

Further, in another aspect, all the above-mentioned configurations are incorporated in the information processing apparatus.

Another adapter device that achieves the above object is a broadcast local area network adapter device that performs data communication by connecting an information processing device to a broadcast local area network transmission line.
Transmitting means for transmitting a data frame to the transmission path; transmission frame storing means for storing one or more data frames to be transmitted by the transmitting means; and data frame transmission due to a temporary transmission failure of the transmission path. When the transmission failure detection means detects the occurrence of a failure and the transmission failure detection means detects the transmission failure of the data frame, the transmission means transmits the same data frame signal, and the same data frame is retransmitted. Retransmitting means for judging whether a predetermined number of times has been reached, retransmission count means for controlling the number of retransmissions of the same data frame under the control of the retransmission means, and the retransmission means for predetermined number of retransmissions of the same data frame. When it is determined that the number of times has been reached, the data length of the data frames stored in the transmission frame storage means Select the shortest data frame,
A frame selecting means for sending to the sending means is provided.

Another adapter device that achieves the above object is a broadcast local area network adapter device that performs data communication by connecting an information processing device and a broadcast local area network transmission path.
Data transmission is performed simultaneously from a transmission unit that transmits a data frame to the transmission line, a transmission frame storage unit that stores one or more data frames transmitted by the transmission unit, and a plurality of information processing devices on the transmission line. Failure detection means for detecting the occurrence of a data frame collision and a data frame transmission failure caused by a temporary transmission failure of the transmission path; and the failure detection means, the data frame collision or the data frame transmission failure Retransmitting means for causing the transmitting means to transmit the same data frame signal when detecting, and determining whether or not the number of retransmissions of the same data frame has reached a predetermined number of times,
Retransmission counting means controlled by the retransmitting means to count the number of retransmissions of the same data frame, and the transmission frame storing means when the retransmission means determines that the number of retransmissions of the same data frame has reached a predetermined number. The frame selecting means for selecting the data frame having the shortest data length from the data frames stored in and transmitting it to the transmitting means.

[0017]

According to the present invention, when the collision detection means, the transmission failure detection means or the failure detection means detects a data signal collision or transmission failure in the transmission path, the resending means causes the same data to be resent, When the number of times the same data is retransmitted reaches a predetermined number, the frame selecting means selects and transmits the data having the shortest data length among the staying frames.

[0018]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing the configuration of a broadcast LAN adapter device according to a first embodiment of the present invention.

As shown, the adapter device 2 of this embodiment
0 connects the main unit 10 and the LAN transmission line 50. Workstations 30 and 40 are connected to the transmission line 50 as information processing devices. The main body device 10 is
Data communication is performed with the transmission path 50 via the adapter device 20, and data is exchanged with the workstations 30, 40.

It is assumed that the adapter device 20 is built in the main body device 10 in appearance. Needless to say, each of the workstations 30 and 40 also has a configuration including the main body device 10 and the adapter device 20.

The adapter device 20, as shown in FIG.
The transmission unit 21 that transmits a data signal to the transmission line 50, the collision detection unit 22 that detects a signal collision on the transmission line 50, the retransmission unit 23 that retransmits a signal when a collision occurs, and the retransmission unit 23. A retransmission counter 24 for counting the number of times of signal retransmission, a data frame 26 transmitted from the transmission unit 21,
A transmission frame storage unit 25 for storing 27 and a frame selection unit 28 for selecting a frame to be transmitted are provided. The LAN of this embodiment performs data communication by the CSMA / CD method. In the figure, a data frame 26 is transmission data whose destination is the workstation 30, and a data frame 27 is transmission data whose destination is the workstation 40. Further, the data frame 27 has a longer data length than the data frame 26.

The collision detector 22 is connected to the transmission line 50 to detect a collision of data signals on the transmission line 50. When the data signal transmitted from the transmission unit 21 collides with the data signal output from the other workstations 30 and 40 on the transmission path 50, the occurrence of the collision is detected and the retransmission unit 23 is notified.

The retransmitting unit 23 receives the notification of the occurrence of the data signal collision from the collision detecting unit 22 and retransmits the frame of the data signal. The timing at which the data frame is retransmitted can be appropriately determined. Also, the resending unit 23
Is set to a threshold value indicating the number of times the same data frame is retransmitted. When the retransmitted data frame collides again with the transmission path 50, the data frame is repeatedly retransmitted until the number of times reaches a preset threshold value. When the number of retransmissions of the same data frame reaches the threshold value, the frame selection unit 28 is notified.

The retransmission counter 24 counts the number of retransmissions each time the retransmission unit 23 retransmits the same data frame. The value of the counted number of retransmissions is sent to the retransmission unit 23 and compared with the threshold value.

When the frame selection unit 28 receives from the retransmitting unit 23 a notification indicating that the number of times the same data frame has been retransmitted has reached the threshold value, the frame selecting unit 28 is stored in the transmission frame storage unit 25 and is waiting for transmission. Among them, the data frame with the shortest data length is selected and sent to the transmitting means. The selected data frame is transmitted from the transmission section 21 to the transfer destination workstation via the transmission path 50.

The above-mentioned configuration, particularly the frame selecting unit 28 and the retransmitting unit 23, can be realized by a program-controlled CPU, and can be realized without providing specific hardware.

Next, the operation of this embodiment will be described with reference to the flow chart of FIG. Here, as shown in FIG. 1, the data frames 26 and 27 are stored in the transmission frame storage unit 2.
It is assumed that the data claim 27 is transmitted first, of which the data claim 27 is stored and is waiting to be transmitted.

When the data frame 27 transmitted by the transmission unit 21 collides with another data signal on the transmission path 50, the collision detection unit 22 detects the collision and notifies the retransmission unit 23 of the occurrence of the data signal collision. (Steps 201, 2
02). Upon receiving the notification from the collision detection unit 22, the retransmission unit 23 increments the retransmission counter 24 (step 203) and causes the transmission unit 21 to retransmit the data frame 27 (step 204). The same operation is repeated each time a data signal collision occurs until the number of times the data frame 27 is retransmitted reaches a predetermined threshold value (steps 206, 204, 205).

When the value of the retransmission counter 24, that is, the number of retransmissions of the data frame 27 reaches the threshold value, the retransmission unit 2
3 notifies the frame selection unit 28 (step 20).
5, 207). Upon receiving the notification, the frame selection unit 28 selects the frame having the shortest data length among the data frames retained in the transmission frame storage unit 25 (step 208). Here, the data frame 26 having a shorter data length than the data frame 27 is selected.
The frame selection unit 28 sends the selected data frame 26 to the transmission unit 21 and causes it to be transmitted to the workstation 30 via the transmission path 50 (step 209).

By the above operation, when the number of collisions of the same data frame reaches the threshold value, a data frame having a shorter data length is selected and transmitted, so that the occupation rate of the transmission path 50 is temporarily reduced. It will go down.

FIG. 3 is a block diagram showing the configuration of a broadcast LAN LAN adapter device according to the second embodiment of the present invention. As shown in the figure, the adapter device 60 of the present embodiment includes a transmission failure detection unit 61 instead of the collision detection unit 22 as compared with the adapter device 20 of the first embodiment of FIG.
The other configurations are similar to those of the first embodiment, and therefore, the same reference numerals are given and the description thereof is omitted.

The transmission failure detection unit 61 detects a temporary transmission failure such as a late collision, and a transmission failure that can be detected by the transmitting station due to the voltage change of the transmission path occurs in the transmission path 50. To detect this. Operations such as the resending of the data frame and the selection of the transmission frame after detecting the transmission failure are the same as those in the first embodiment. It is expected that the probability of garbled bits will temporarily decrease by selecting and transmitting a data frame with a shorter data length after a certain number of retransmissions.

FIG. 4 is a block diagram showing the configuration of a broadcast LAN type adapter device according to a third embodiment of the present invention. As shown in the figure, the adapter device 70 of the present embodiment is provided with a failure detection part 71 instead of the collision detection part 22 as compared with the adapter device 20 of the first embodiment of FIG. The other configurations are similar to those of the first embodiment, and therefore, the same reference numerals are given and the description thereof is omitted.

The fault detecting section 71 transmits a transmission failure when there is a data signal collision on the transmission path 50, a temporary transmission failure, and a transmission failure which can be detected by the transmitting station due to a change in the voltage of the transmission path. These are detected if they occur on path 50. Operations such as data frame re-transmission and transmission frame selection after detecting the data signal collision or transmission failure are the same as those in the first embodiment.

Although the present invention has been described with reference to the preferred embodiments, the present invention is not necessarily limited to the above embodiments. For example, the adapter device does not need to be built in the main body device as described in this embodiment, and RS-232C
You may make it connect by interposing in various communication connectors, such as.

[0036]

As described above, in the broadcast type local area network adapter device of the present invention, the collision detecting means, the transmission failure detecting means or the failure detecting means can prevent data signal collision or transmission failure in the transmission path. When it is detected, the resending unit executes the resending of the same data, and when the number of resending of the same data reaches a predetermined number, the frame selecting unit selects the data with the shortest data length among the staying frames. Therefore, there is an effect that the data transfer process can be promptly restored in response to a temporary failure of the transfer path.

Further, after a predetermined number of retransmission failures, data having a shorter data length is selected and transmitted, so that there is an effect that it is possible to reduce the probability of retransmission failure or garbled frame data.

Furthermore, since no special hardware is required to realize the above effect, there is an effect that it is economically efficient.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of an adapter device for a broadcast local area network according to a first embodiment of the present invention.

FIG. 2 is a flowchart showing an operation of the adapter device of FIG.

FIG. 3 is a block diagram showing a configuration of an adapter device for a broadcast local area network according to the first embodiment of the present invention.

FIG. 4 is a block diagram showing a configuration of an adapter device for a broadcast type local area network according to the first embodiment of the present invention.

[Explanation of symbols]

 10 Main Unit 20, 60, 70 Adapter Device 21 Transmitter 22 Collision Detector 23 Retransmitter 24 Retransmission Counter 25 Transmitted Frame Storage 26 Data Frame 27 Data Frame 28 Frame Selector 30 Workstation 40 Workstation 50 Transmission Line 61 Transmission Failure Detection unit 71 Fault detection unit

Claims (6)

[Claims] 1. A broadcast local area network adapter device for performing data communication by connecting an information processing device to a broadcast local area network transmission line, the transmission comprising transmitting a data frame to the transmission line. Means, transmission frame storage means for storing one or more data frames to be transmitted by the transmission means, and detection of a data frame collision caused by simultaneous data transmission from a plurality of information processing devices on the transmission path. And a collision detecting means for causing the transmitting means to transmit the same data frame signal when the collision detecting means detects a collision of data frames, and the number of retransmissions of the same data frame has reached a predetermined number of times. Retransmitting means for determining whether the same data frame is retransmitted under the control of the retransmitting means. And a retransmission count means for counting the number of retransmissions, and when the retransmission means determines that the number of retransmissions of the same data frame has reached a predetermined number, the data length stored in the transmission frame storage means is the largest. An adapter device for a broadcast local area network, comprising: a frame selecting means for selecting a short data frame and sending it to the transmitting means. 2. The broadcast-broadcast local area network adapter device according to claim 1, wherein all the components are built in an information processing device. 3. A broadcast local area network adapter device for performing data communication by connecting an information processing device and a broadcast local area network transmission line, the transmission comprising transmitting a data frame to the transmission line. Means, a transmission frame storage means for storing one or a plurality of data frames to be transmitted by the transmission means, and a transmission failure detection means for detecting the occurrence of a data frame transmission failure due to a temporary transmission failure of the transmission path. And, when the transmission failure detection means detects a data frame transmission failure, causes the transmission means to transmit the same data frame signal, and determines whether the number of retransmissions of the same data frame has reached a predetermined number of times. And a retransmission counter for controlling the number of retransmissions of the same data frame under the control of the retransmission means. And a means for selecting the data frame having the shortest data length among the data frames stored in the transmission frame storage means when the retransmission means determines that the number of times of retransmission of the same data frame has reached a predetermined number. And a frame selecting means for sending to the transmitting means, a broadcast type local area network adapter device. 4. The broadcast-broadcast local area network adapter device according to claim 3, wherein all the components are built in an information processing device. 5. A broadcast local area network adapter device for performing data communication by connecting an information processing device and a broadcast local area network transmission line, the transmission comprising transmitting a data frame to the transmission line. Means, transmission frame storage means for storing one or more data frames to be transmitted by the transmission means, and collision and transmission of data frames caused by simultaneous data transmission from a plurality of information processing devices on the transmission path. Failure detection means for detecting the occurrence of a data frame transmission failure due to a temporary transmission failure of the path, and the same as the transmission means when the failure detection means detects a data frame collision or a data frame transmission failure Data frame signal is transmitted and the number of retransmissions of the same data frame is Retransmitting means for judging whether or not a predetermined number of times has been reached, retransmission count means for controlling the number of retransmissions of the same data frame under the control of the retransmitting means, and the retransmission means for retransmitting the same data frame by a predetermined number of times. And a frame selecting means for selecting the data frame having the shortest data length among the data frames stored in the transmission frame storing means and sending the selected data frame to the transmitting means. Multicast broadcast type local area network adapter device. 6. The broadcast-broadcast local area network adapter device according to claim 5, wherein all the components are built in an information processing device.